@inproceedings{oai:repo.qst.go.jp:00054792,
 author = {Zen, Heishun and Taira, Yoshitaka and Konomi, Taro and Hayakawa, Takehito and Shizuma, Toshiyuki and Yamazaki, Junichiro and Toshiteru, Kii and Toyokawa, Hiroyuki and Katoh, Masahiro and Ohgaki, Hideaki and 早川 岳人 and 静間 俊行},
 book = {Energy Procedia},
 month = {Jun},
 note = {Development of a laser Compton scattering (LCS) gamma-ray source in the UVSOR-III storage ring has been proposed to perform basic research on non-destructive three dimensional isotope imaging. As the first step of the development, a numerical simulation was performed to evaluate the performance of the gamma-ray source. The maximum gamma-ray energy and the total flux available were measured in experiment and determined as 5403 ± 16 keV with 1×10^7 photons/s, respectively. The electron beam energy was evaluated as 746 ± 1 MeV from the measured maximum gamma-ray energy. From the numerical calculation and the experimental result, if a collimator with a size of 2 mm is used, the energy spread of 2.9% in full width at half maximum and the flux of 4×10^5 photons/s are expected. The expected quality of the gamma-ray beam generated in UVSOR-III is enough to perform a basic study on the non-destructive three dimensional isotope imaging.},
 pages = {335--345},
 title = {Generation of High Energy Gamma-ray by Laser Compton Scattering of 1.94-μm Fiber Laser in UVSOR-III Electron Storage Ring},
 volume = {89},
 year = {2016}
}